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Vertiv Identifies Data Center Infrastructure Trends For 2017

Vertiv, formerly Emerson Network Power, has released six data center infrastructure trends to watch in 2017.

Vertiv, formerly Emerson Network Power, has released six data center infrastructure trends to watch in 2017. This year’s trends follow the 2016 data center trends published by Emerson Network Power last year.

“We’re moving further into the cloud era and that creates challenges and opportunities for organizations using and delivering cloud and co-located data center resources,” said Gary Niederpruem, vice president, global marketing and strategy of Vertiv. “In our 2016 trends, we focused on disruptive macro trends, such as evolving cloud models and the role of social responsibility. This year, we’re focusing on the technology advances in critical infrastructure that will enable edge, enterprise, colocation and cloud data centers to adapt to change in 2017 and beyond.”

Below are six infrastructure trends shaping the data center ecosystem in 2017:

Infrastructure races to keep up with connectivity at the edge
Distributed IT and the industrial Internet of Things (IIoT) are pushing IT resources closer to users and industrial processes. While the data center remains core to delivering applications and services, such as point of sale and inventory management, network closets and micro data centers are growing in number and importance as internet-connected sensors and devices proliferate and remote users demand faster access to information. Responding to these changes, organizations will turn to pre-configured micro data center solutions that support fast deployment, greater standardization and remote management across distributed IT locations. Standardization and modularity are becoming as important in distributed IT locations as they are in large data centers.

Existing network closets and remote IT locations will also be re-evaluated to ensure the power and cooling provisions are adequate to meet the increased criticality of these locations as they begin to provide localized collection and analysis of real-time data from connected sensors and devices.

Thermal management expands to sustainability
Data center cooling has changed more in the last five years than any other data center system. Fueled by the desire to drive down energy costs, traditional approaches that focused on delivering “maximum cooling” have been displaced by more sophisticated approaches focused on removing heat as efficiently as possible. Increased use of advanced economizer technologies and the continued evolution of intelligent thermal controls have enabled highly resilient thermal management strategies that support PUEs below 1.2.

Now, while energy efficiency remains a core concern, water consumption and refrigerant use have emerged as important considerations in select geographies. Thanks to the expanded range of thermal management strategies available today, data center operators are tailoring thermal management based on data center location and resource availability. Global market trends show an increase in the use of new technologies leveraging evaporative and adiabatic cooling that use water to cool the surrounding air. These technologies are delivering highly efficient, reliable and economical thermal management.

Where water availability or costs are an issue, waterless cooling systems have gained traction. A traditional open-loop chilled water-based system uses about 4 million gallons of water to cool 1 MW of IT capacity in one year. New technologies featuring pumped-refrigerant economizers that use no water and introduce no outside air into the data center will save over 1 billion gallons of water in North America in 2016.

As more devices get connected to enable simpler management and eventual automation, threat vectors also increase. Data center professionals are adding security to their growing list of priorities and beginning to seek solutions that help them identify vulnerabilities and improve response to attacks. Management gateways that consolidate data from multiple devices to support DCIM are emerging as a potential solution. With some modifications, they can identify unsecured ports across the critical infrastructure and provide early warning of denial of service attacks.

DCIM proves its value
DCIM is continuing to expand its value, both in the issues it can address and its ability to manage the increasingly complex data center ecosystem. Forward-thinking operators are using DCIM to address data center challenges, such as regulatory compliance, Information Technology Infrastructure Library (ITIL), and managing hybrid environments. Finally, colocation providers are finding DCIM a valuable tool in analyzing their costs by customer and in providing their customers with remote visibility into their assets.

DCIM has emerged as the precursor to IIoT in the data center, delivering the visibility, increased coordination across systems and support for automation that are at the core of the IIoT value proposition.

Alternatives to lead-acid batteries become viable
New solutions are emerging to the weak link in data center power systems as operators seek to reduce the footprint, weight and total costs of traditional valve-regulated lead-acid (VRLA) batteries. The most promising of these is lithium-ion batteries. With prices decreasing and chemistries and construction continuing to advance, lithium-ion batteries are becoming a viable option for the data center and are being scaled to handle row- and room-level requirements. While this battery technology has been available previously, the improving economics have spurred increased commercialization efforts in the data center industry.

Data center operators have long been interested in alternatives to lead-acid batteries, but available technologies have not been able to match the value and storage capacity of traditional batteries. Now, real alternatives are emerging that can reduce footprint, expand runtimes, and enhance sustainability.

Data center design and deployment become more integrated
Technology integration has been increasing in the data center space for the last several years as operators seek modular, integrated solutions that can be deployed quickly, scaled easily and operated efficiently. Now, this same philosophy is being applied to data center development. Speed-to-market is one of the key drivers of the companies developing the bulk of data center capacity today, and they’ve found the traditional silos between the engineering and construction phases cumbersome and unproductive. As a result, they are embracing a turnkey approach to data center design and deployment that leverages integrated, modular designs, off-site construction and disciplined project management. Vendors that bring together infrastructure expertise, design and engineering capabilities and sophisticated project management to deliver a turnkey capability can build better data centers faster.

“Infrastructure technologies and associated services continue to evolve to deliver the speed, security, flexibility and efficiency data center operators require today, whether they are managing a data center that relies on the cloud or developing the capacity to meet the demand for cloud and colocation services,” said Niederpruem. “Taking advantage of these changes requires an infrastructure partner with a deep understanding of all aspects of data center operations and a full range of design, project management and maintenance services.”

Events

On Demand An edge data facility is still a data center. One still and must consider design, construction, and operational habits that result in high levels of system availability, maintainability, and resiliency. The disaggregation that edge poses will distribute compute and storage assets, and the challenge will be placing edge assets into sufficiently robust facilities or enclosures outside of traditional data centers where those local solutions can equally sustain those IT operations and systems.

As power consumption requirements of both server and switch components within the IT stack expand, users are having to reconsider their power distribution strategies to balance and manage power more effectively. More power means more heat, thicker cabling and overall denser environments, which requires infrastructure upgrades. Learn key considerations for high density rack environments and effective power distribution strategies to better future-proof your infrastructure.